Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.2.1.36 (hyaluronidase)
4,606 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The location of lectin binding sites and of anionic components was studied in the embryonic rat cerebral cortex after the formation of the cortical plate at embryonic day 18. The cortical layers advanced in differentiation, i.e. the sub-plate region and the marginal zone, showed a predominant staining with peroxidase conjugates of wheat germ agglutinin (WGA), peanut agglutinin (PNA), and after immunocytochemical detection of PNA binding sites. This pattern was obtained also with the colloidal iron hydroxide staining method. In contrast to this, the binding of concanavalin A and of succinylated WGA did not reveal a prevalent staining of the sub-plate region and the marginal zone. The further histochemical analysis of the substances responsible for the selective staining of these layers was performed by lipid extractions and by enzymatic treatment of the tissue sections with trypsin, hyaluronidase or neuraminidase prior to the binding of lectins or colloidal iron. The results obtained indicated high concentrations of sialylated galactosylglycoproteins in coexistence with glycosaminoglycans. Electron microscopy was performed with peroxidase conjugates of WGA and PNA. Binding sites of both of the lectins in the sub-plate region and in the marginal zone were located mainly at cell surfaces of the different cellular structures. The most intensive binding of WGA and PNA was detected at the surface membranes and at intracellular material of amoeboid microglial cells and astrocyte-like cell processes. It can be concluded that in distinct brain areas during early differentiation specific glycoproteins in coexistence with glycosaminoglycans are situated at, or associated with cell surfaces in high concentrations. The identical histochemical features previously described in mesenchymal tissues suggest that these glycoconjugates might be related to common morphogenetic processes in which non-neuronal cells of brain and body are specifically involved.
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PMID:Lectin binding sites and anionic components related to differentiation in the prenatal rat cerebral cortex. 384 46

The hyaluronic acid binding region was prepared by clostripain digestion of chondroitin sulfate proteoglycan isolated from the Swarm rat chondrosarcoma, and biotinylated in the presence of associated hyaluronic acid and link protein. After removal of hyaluronic acid by gel filtration in 4 M guanidine HCl, the biotinylated binding region-link protein complex was used as a specific histochemical probe in conjunction with avidin-peroxidase. Its utility was initially evaluated by comparison with Alcian blue staining of the axial region of 2 to 5 day chick embryos, where staining was seen in the dorsolateral area between the neural tube and the ectoderm, in the perichordal mesenchyme, and in developing limb buds. Light and electron microscopic studies of early postnatal rat cerebellum indicate that hyaluronic acid is primarily localized in the extracellular space of immature brain. Staining specificity was demonstrated by the ability of hyaluronic acid oligosaccharides of appropriate size to block the staining reaction, and by the absence of staining after treatment of tissue sections with protease-free Streptomyces hyaluronidase, which degrades only this glycosaminoglycan.
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PMID:The hyaluronic acid binding region as a specific probe for the localization of hyaluronic acid in tissue sections. Application to chick embryo and rat brain. 404 84

The findings are presented of a morphologic, quantitative, cytochemical and cytoenzymologic study of the mononucleated nonlymphoid cells in knee synovial fluids from osteoarthritis and various inflammatory diseases. The morphologic criteria allowed the identification of subtypes, including phagocytic subtypes, among synoviocytic and monocytic cells in the fluids. The quantitative study showed an important afflux of monocytes and a hyperexfoliation of synoviocytes in the inflammatory diseases. In fluids with intermediate cellularity, the ratio of monocytes to synoviocytes allowed the differential cytodiagnosis between osteoarthrosis and arthritis. All monocytic subtypes, especially the phagocytic one, were highly significantly increased in the inflammatory diseases. A lower increase was shown by the synoviocytic subtypes, except the phagocytic one, which was not changed. Giant multinucleated synoviocytes were found in every type of disease and thus do not constitute a cytodiagnostic marker. Alcian blue staining without hyaluronidase treatment showed hyaluronate in only a small percentage of the synoviocytes. Cytoenzymologic study showed that synoviocytes and monocytes were positive for all tested hydrolases (beta glucuronidase, acid phosphatase and alpha naphthyl acetate esterase), with the reactivities always higher in the synoviocytes. The synoviocytes were always negative with peroxidase, so this reaction, although it marks only a minority of the monocytic population, can be used as an extra cytologic criterion for the discrimination of mononucleated cells in synovial fluid. There was no significant quantitative difference at the cellular level between osteoarthrosis and arthritides in the reaction to these four enzymes. The lysosomal enzymatic activity in both monocytic and synoviocytic cells confirmed their heterophagic properties. However, synoviocytic heterophagy seems to be a physiologic process, either little or not affected by inflammatory events. On the other hand, monocytic heterophagy and then the macrophagic transformation of monocytes appears to be a major aspect of intrasynovial inflammatory reactions. The question remains as to why, if a large majority of exfoliated synoviocytes comes from type A synovial-lining cells and if they belong to mononuclear phagocytic system, do they so weakly, or not at all, participate as phagocytes in the inflammatory reaction.
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PMID:Morphologic, quantitative and cytoenzymologic studies of synoviocytic and monocytic cells in synovial fluid. 609 67

Proteoglycans and glyco(link)proteins are demonstrated in the cartilage matrix using immunohistochemical reactions, ruthenium red staining and concanavalin A-peroxidase procedure. Specific antibodies against proteoglycan monomers revealed a loose matrix structure in the interterritorial area of nasal cartilage. Thin filaments of 49-87 nm in length with a knob on one end corresponding to the protein core of proteoglycan monomers were found in irregular contacts with collagen fibres. Following hyaluronidase digestion the immunohistochemical reactions became more intense, and the matrix structure is suggestive of a network of single filaments which are presumably coupled together longitudinally at the sites of small matrix granules. These matrix granules proved to be glyco(link)proteins of proteoglycan aggregate. Immunohistochemical reactions combined with other methods can reveal an in situ structure of proteoglycan aggregate of hyaline cartilage, which contributes substantially to what has been known about the proteoglycan aggregates on the basis of physico-chemical data and has been verified in monomolecular electron microscopic specimens. The enzymatic treatments of cartilage slices suggest that some of the partially digested proteoglycan monomers are required to be present for the preservation of the structural integrity of cartilage tissue.
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PMID:Localization of antigenic components in proteoglycan aggregate of bovine nasal cartilage. 634 27

Although the majority of reported studies have used fresh-frozen sections in detecting surface antigen of lymphocytes in tissue via monoclonal antibody, detailed histological figures can not be obtained by this method. Nor can the antigenicity be preserved for any length of time. A new method for detecting the surface antigen of lymphocytes using fixed and embedded material is presented. Human spleens were fixed in cold acetone, embedded in low melting point paraffin wax, and the thin sections treated with hyaluronidase. Anti-T lymphocyte monoclonal antibody (anti-Leu-1, anti-Leu-2, anti-Leu-3) and anti-HLA-DR were applied on these sections, and the antigen was detected by the ABC (avidin-biotin-peroxidase complex) method. The results were then compared with those of fresh-frozen sections. There was no great difference in detecting T and B cells or their subsets, but the histological figures were substantially better preserved in sections prepared by the present method. Furthermore, the antigenicity was retained in the materials fixed and embedded for more than two years.
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PMID:Immunohistochemical demonstration of surface antigen of human lymphocytes with monoclonal antibody in acetone-fixed paraffin-embedded sections. 636 82

This paper describes a morphologic, quantitative, cytochemical study of mononuclear non lymphoid cells in knee synovial fluid in osteoarthritis and various arthritides. Morphologic criteria allow to identify among these cells various synoviocytic and monocytic subtypes with in both types, phagocytic subtypes. Quantitative study shows in arthritides an important afflux of monocytes and a hyperexfoliation of synoviocytes. In fluids with intermediate cellularity, Monocytes/Synoviocytes ratio allows the differential cytodiagnosis between osteoarthrosis and arthritis. All monocytic subtypes and especially the phagocytic one are highly significantly increased in arthritides. Synoviocytic subtypes show a lower increase, except the phagocytic one, which is not changed. Giant multinuclear synoviocytes are found in every type of disease and cannot constitute a cytodiagnosis marker. Alcian Blue and hyaluronidase treatment show hyaluronate in a few percentage of Synoviocytes. Cytoenzymologic study shows that synoviocytes and monocytes are positive in all tested hydrolases: beta Glucuronidase, Acid Phosphatase, alpha Naphthyl Acetate Esterase, these activities being always higher in synoviocytes. With peroxidase, synoviocytes are always negative, so this reaction although it marks only a minority of monocytic population can be used as an extra cytologic criterion for discrimination of mononuclear cells in synovial fluid. In these four enzymes there is no significant quantitative difference at cellular level between osteoarthrosis and arthritides. Lysosomal enzymatic activity in both monocytic and synoviocytic cells confirms their heterophagic properties. However synoviocytic heterophagy seems to be a physiological process not or few affected by inflammatory events. On the opposite, monocytic heterophagy and then macrophagic transformation of monocytes appears as a major aspect of intrasynovial inflammatory reaction. If a large majority of exfoliated synoviocytes comes from A type synovial lining cells and if they belong to Mononuclear Phagocyte System, why do they so weakly, or not, participate as phagocytes to inflammatory reaction.
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PMID:[Non-lymphoid mononucleated cells in the synovial fluid in arthrosis and various inflammatory arthropathies. Morphologic, quantitative and cytoenzymologic study]. 654 71

Using the sialic acid-specific lectin, limulin (LPA; from Limulus polyphemus hemolymph), the distribution and nature of sialoglycoconjugates on the surface of rat pancreatic cells has been investigated. Binding of rhodaminated LPA (Rh-LPA) or horseradish peroxidase-conjugated LPA (HRP-LPA) to fixed-frozen sections of adult rat pancreas resulted in intense linear staining of the apical surface of acinar cells with fainter staining on the basal but not the lateral cell surfaces. LPA binding was specific in that it could be abolished by 1) pretreatment of tissue sections with neuraminidase or periodic acid; 2) competition with sialic acid; and 3) incubation in Ca2+ -free buffers. Pretreatment of sections with proteases abolished LPA binding to the apical surfaces of acinar cells and also enhanced LPA binding to the lateral cell surface. Lipid extraction of sections following protease treatment markedly reduced LPA binding to the acinar cell periphery. These results suggest that LPA binding sites on the acinar cell apical surface may be primarily sialoglycoproteins, while those on the basolateral surfaces may consist in part of gangliosides. Electron microscopy of collagenase-dispersed acini exposed to HRP-LPA confirmed binding of LPA to the basal plasmalemma and, in addition, revealed staining of basal lamina when present. LPA binding to the acinar cell surface was not affected by digestion of tissue sections with hyaluronidase, heparinase, collagenase, or 6 M guanidine-HCl. Control experiments indicated that rat pancreatic secretory proteins contain undetectable amounts of sialoglycoproteins and thus that the apical localization of LPA is not due to adherent secretory proteins. Islets of Langerhans were always uniformly and heavily stained with LPA conjugates; this staining was protease insensitive. Appearance of LPA binding sites was examined on embryonic pancreatic epithelia. At day 15 of gestation, Rh-LPA stained the entire periphery of the epithelial cells, including the lateral cell surface, although more intense staining was already noted on the apical surface. This pattern persisted through day 17 of gestation, but by day 19 an adult staining pattern was observed with loss of staining of the lateral cell surfaces.
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PMID:Distribution of sialoglycoconjugates on acinar cells of the mammalian pancreas. 675 68

Hyaluronidase from fresh human serum was purified to apparent homogeneity in a two-step procedure. Potent serum inhibitors of hyaluronidase activity were removed during the course of the purification. Isolation of the enzyme was expedited by the use of a newly devised ELISA-like assay. Enzyme activity was measured by following the rates of hydrolysis of hyaluronan (HA) adsorbed onto microtiter wells. Following enzymatic digestion, the remaining HA was measured using a cartilage-derived biotinylated HA-binding protein and an avidin-peroxidase reaction. Molecular sieve chromatography yielded a doublet of proteins with apparent molecular sizes of 42 and 50 kDa. The molecular size of the major band of protein obtained on sodium dodecyl sulfate-polyacrylamide gel electrophoresis under nonreducing conditions was 59 kDa. Under reducing conditions, however, the size increased to 72 kDa. The pH optimum of the enzyme was 3.7. Sodium chloride concentrations greater than 100 mM were inhibitory. Activity of the serum enzyme was further characterized with a new HA-substrate gel procedure. The serum enzyme activity is different from the liver-derived activity. The tissue source of this circulating enzyme is unknown.
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PMID:Purification and characterization of human serum hyaluronidase. 837 80

A sensitive, rapid microtiter-based assay for hyaluronidase activity is described that does not require highly specialized biological reagents, as required heretofore. The free carboxyl groups of hyaluronan are biotinylated in a one-step reaction using biotin-hydrazide. This substrate is then covalently coupled to a 96-well microtiter plate. At the completion of the enzyme reaction, residual substrate is detected with an avidin-peroxidase reaction that can be read in a standard ELISA plate reader. Because the substrate is covalently bound to the microtiter plate, artifacts such as pH-dependent displacement of the biotinylated substrate do not occur. The sensitivity permits rapid measurement of hyaluronidase activity from cultured cells and biological samples with an interassay variation of less than 5%. Using this new assay, we measured the distribution profile of plasma hyaluronidase levels in normal human sera. A 1-microl sample of plasma was sufficient for assays in triplicate. Hyaluronidase activity in human foreskin primary keratinocyte cultures was also quantitated. A 25-fold increase in hyaluronidase activity was observed in keratinocyte cultures induced to differentiate in high calcium (1.5 mM), compared to levels in low calcium (0.05 mM) media. The microtiter-based assay may be used as a routine clinical laboratory procedure.
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PMID:A microtiter-based assay for hyaluronidase activity not requiring specialized reagents. 929 25

A method has been developed which allows the analysis of glycoproteins separated by SDS-PAGE. The procedure, though applicable to N-glycosylated glycoproteins of any origin, is particularly devised for glycoproteins potentially containing fucose in alpha1,3-linkage to the reducing GlcNAc as may be found in plants and invertebrates, e.g., insects and parasitic helminths. Starting with an established procedure for mass spectrometric peptide mapping, the analysis of N-glycans by matrix-assisted laser desorption/ionization mass spectrometry involved the use of peptide:N-glycosidase A, a triphasic microcolumn for sample cleanup, and a new matrix mixture consisting of 2,5-dihyhydroxybenzoic acid, 1-hydroxyisoquinoline, and arabinosazone. The method was tested on proteins with N-glycans of known structure, i.e., as horseradish peroxidase, zucchini ascorbate oxidase, soybean agglutinin, honeybee venom hyaluronidase, bovine ribonuclease B, and bovine fetuin. An electrophoretic band corresponding to 4 microg of glycoprotein was generally sufficient to allow detection of the major N-glycan species. As an additional benefit, a peptide mass map is generated which serves to identify the analyzed protein. The method was applied to glycoprotein allergens whose glycan structures were unknown. Ara h 1 and Ole e 1, major allergens from peanut and olive pollen, respectively, contained mainly xylosylated N-glycans with the composition Man(3(-4))XylGlcNAc(2) in the case of Ara h 1 and GlcNAc(1-2)Man(3)XylGlcNAc(2) in the case of Ole e 1 where also some GlcNAc(0-2)Man(3)XylFucGlcNAc(2) was found.
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PMID:N-Glycan analysis by matrix-assisted laser desorption/ionization mass spectrometry of electrophoretically separated nonmammalian proteins: application to peanut allergen Ara h 1 and olive pollen allergen Ole e 1. 1099 64


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